bending field point
简明释义
抗弯屈服点
英英释义
例句
1.During the simulation, the bending field point was identified as critical for stability.
在模拟过程中,弯曲场点被确定为稳定性的重要因素。
2.The technician adjusted the settings to optimize the performance at the bending field point.
技术人员调整了设置,以优化在弯曲场点的性能。
3.In our experiments, we observed a significant change in behavior at the bending field point.
在我们的实验中,我们观察到在弯曲场点的行为有显著变化。
4.The design of the antenna must account for the bending field point to ensure proper signal reception.
天线的设计必须考虑到弯曲场点以确保信号接收正常。
5.Engineers must calculate the bending field point when designing structures that will be subjected to stress.
工程师在设计将承受压力的结构时,必须计算弯曲场点。
作文
In the study of physics and engineering, the concept of a bending field point is crucial for understanding how forces interact within a given system. A bending field point refers to a specific location in a field where the influences of various forces converge, causing a noticeable change in direction or intensity of the field lines. This phenomenon can be observed in many practical applications, such as in the design of bridges, buildings, and even in the development of electronic devices. When engineers design structures, they must consider the effects of external forces such as wind, gravity, and seismic activity. The bending field point plays a significant role in determining how these forces will affect the integrity and stability of the structure. For instance, when a bridge is subjected to heavy traffic, the load creates stress that leads to bending at specific points along the bridge's span. Understanding where these bending field points occur allows engineers to reinforce those areas to prevent failure.Moreover, in the realm of electromagnetism, the bending field point can also be observed in the behavior of electric and magnetic fields. When charged particles move through these fields, they experience forces that can cause their paths to bend. Identifying the bending field points in these scenarios is essential for predicting how particles will behave, which has implications for technologies such as particle accelerators and magnetic confinement in fusion reactors.In addition to its applications in engineering and physics, the idea of a bending field point can also be metaphorically applied to social sciences. For example, in sociology, a bending field point could represent a moment in time or a specific event where societal norms shift dramatically due to external pressures. Understanding these points can help sociologists analyze trends and predict future changes in society.The versatility of the bending field point concept demonstrates its importance across various disciplines. Whether in physical structures or abstract social constructs, recognizing where significant changes occur can lead to better designs, improved safety measures, and deeper insights into human behavior. In conclusion, the bending field point serves as a vital concept that bridges multiple fields of study, highlighting the interconnectedness of forces, whether they be physical, electrical, or social. As we continue to explore the complexities of our world, the understanding of bending field points will undoubtedly remain an essential element in both theoretical and practical applications.
在物理和工程学的研究中,弯曲场点的概念对于理解力在特定系统中的相互作用至关重要。弯曲场点是指一个特定位置,在该位置上各种力的影响汇聚,导致场线的方向或强度发生明显变化。这种现象可以在许多实际应用中观察到,例如在桥梁、建筑物的设计,甚至在电子设备的发展中。当工程师设计结构时,他们必须考虑外部力量的影响,如风、重力和地震活动。弯曲场点在确定这些力量如何影响结构的完整性和稳定性方面起着重要作用。例如,当一座桥受到重型交通的影响时,载荷会产生应力,从而导致桥跨的特定点发生弯曲。了解这些弯曲场点的位置使工程师能够加固这些区域,以防止故障。此外,在电磁学领域,弯曲场点也可以在电场和磁场的行为中观察到。当带电粒子在这些场中移动时,它们会经历可以导致其路径弯曲的力。识别这些情况中的弯曲场点对于预测粒子的行为至关重要,这对粒子加速器和核聚变反应堆中的磁约束等技术具有重要意义。除了在工程和物理学中的应用之外,弯曲场点的概念还可以在社会科学中进行隐喻性应用。例如,在社会学中,弯曲场点可以代表一个时间段或特定事件,在这个事件中,由于外部压力,社会规范发生了剧烈的变化。理解这些点可以帮助社会学家分析趋势并预测社会未来的变化。弯曲场点概念的多功能性展示了它在各个学科中的重要性。无论是在物理结构还是抽象的社会构造中,识别显著变化发生的地方可以导致更好的设计、改进的安全措施以及对人类行为的更深入洞察。总之,弯曲场点作为一个重要概念,连接了多个研究领域,突显了力量的相互关联,无论是物理的、电气的还是社会的。随着我们继续探索世界的复杂性,对弯曲场点的理解无疑将在理论和实践应用中始终保持重要元素。
